CN112812158B - Polypeptide fragment C and application thereof - Google Patents
Polypeptide fragment C and application thereof Download PDFInfo
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- CN112812158B CN112812158B CN202110145633.1A CN202110145633A CN112812158B CN 112812158 B CN112812158 B CN 112812158B CN 202110145633 A CN202110145633 A CN 202110145633A CN 112812158 B CN112812158 B CN 112812158B
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Abstract
The invention belongs to the technical field of biological medicines, and particularly relates to a polypeptide fragment C and application thereof. The polypeptide fragment C has an amino acid sequence shown in SEQ ID No.1, wherein the 9 th amino acid Xaa is Tyr, Val, Gly, Ser or Gln, the 20 th amino acid Xaa is Ser, Gln, Glu or Tyr, the 30 th amino acid Xaa is Asn, Thr, Ser, Pro or Leu, and the 42 th amino acid Xaa is Gly, Arg or Met or is absent. MP-C significantly improved the colon pathomorphology of IBD mouse models, reduced disease activity index and colon histopathological score, and had the ability to interfere with the development of inflammatory bowel disease in mice.
Description
Technical Field
The invention belongs to the technical field of biological medicines, and particularly relates to a polypeptide fragment C and application thereof.
Background
Inflammatory Bowel Disease (IBD) is an idiopathic chronic inflammatory bowel disease, the lesions of which are mainly located in the colorectal segment and involve mucous membrane and mucous membrane muscularis, and serious complications in liver, gallbladder, muscle skin and blood coagulation, and 20-30% of patients who relapse may be transformed into colorectal cancer, and the IBD is a very serious inflammatory bowel disease and can be divided into Ulcerative Colitis (UC) and Crohn's Disease (CD). IBD is considered to be an intestinal inflammatory reaction caused by abnormal immune and acquired immune in intestinal mucosa under the interaction of various factors such as environment, heredity, infection and immunity, and the inflammatory reaction in the intestinal mucosa is considered to be a cornerstone of the pathogenesis of IBD. In recent decades, the incidence of IBD has been on a rising trend year by year, and traditional IBD treatment drugs, such as salicylic acids, steroid hormones, immunosuppressants and the like, mainly reduce inflammation and regulate immune disorders to effectively control the onset of disease, but these traditional methods cannot completely cure IBD, are often accompanied by the occurrence of some serious adverse reactions, and cause serious damage to the quality of life of patients, so that a new IBD treatment method is urgently needed.
In recent years, probiotics are becoming a new approach for the treatment of IBD, and research shows that such preparations can improve dysbacteriosis of IBD patients to different degrees in intestinal tract. Lactobacillus L.plantarum is a common probiotic, researches show that the lactobacillus L.plantarum can inhibit the damage of pathogenic bacteria in intestinal tracts through adhesion and colonization, regulate the intestinal permeability of immunodeficient mice and further intervene in the development of colitis, and microfilmin (MIMP) is an active polypeptide fragment which is separated from a L.plantarum CGMCC 1258 strain and can competitively adhere to intestinal epithelial cells with invasive pathogenic escherichia coli, and the sequence is shown in SEQ ID No. 2: THTVGSYFSVQNGYVGAFSQALGNSEYAMNSPLGSLDGRTTMYNLLGVKYLFAREDQLKKQ, the fragment can significantly improve the inflammatory state of intestinal tract and prevent the intestinal flora imbalance of IBD mice. However, MIMP is a biomacromolecule consisting of 61 amino acids, and the relatively large molecular weight is easy to generate immunogenicity and not easy to form a medicament, so that the clinical application of MIMP is limited; in addition, the higher molecular weight is not favorable for the industrial production of the drug. From the aspects of medicinal value and economic benefit, the MIMP is further structurally modified and reformed to improve the pharmacological activity or/and the druggability of the MIMP fragment, thereby being beneficial to the clinical application and the economic benefit of the active fragment.
Disclosure of Invention
In order to overcome the defects of easy immunogenicity and difficult drug formation of MIMP (mimP) with an improvement effect on inflammatory bowel diseases in the prior art, the invention aims to provide the application of the polypeptide fragment C, wherein the polypeptide fragment C can be used for remarkably improving the colon pathomorphology of IBD mice and reducing the disease activity index and colon histopathological score of the IBD mice.
The invention provides a polypeptide fragment C, which has an amino acid sequence shown in SEQ ID No. 1.
Preferably, the amino acid Xaa at the 9 th position of the amino acid sequence shown in SEQ ID No.1 is Tyr, Val, Gly, Ser or Gln, the amino acid Xaa at the 20 th position is Ser, Gln, Glu or Tyr, the amino acid Xaa at the 30 th position is Asn, Thr, Ser, Pro or Leu, and the amino acid Xaa at the 42 th position is Gly, Arg, Met or is absent.
The invention also provides application of the polypeptide fragment C or pharmaceutically acceptable salt thereof in preparing anti-inflammatory bowel disease medicines.
The invention also provides application of the polypeptide fragment C or the pharmaceutically acceptable salt thereof in preparing anti-inflammatory bowel disease foods or food additives.
The invention also provides application of the polypeptide fragment C or pharmaceutically acceptable salt thereof in preparing anti-inflammatory bowel disease health-care products.
Preferably, the polypeptide fragment C or the pharmaceutically acceptable salt thereof is used for preparing a medicament for reducing the disease activity index of the inflammatory bowel disease.
Preferably, the polypeptide fragment C or the pharmaceutically acceptable salt thereof is used for preparing a medicament for improving the pathological colon shortening of the inflammatory bowel disease.
Preferably, the use of said polypeptide fragment C or a pharmaceutically acceptable salt thereof in the manufacture of a medicament for reducing the colon histopathological score of inflammatory bowel disease.
Preferably, the polypeptide fragment C or the pharmaceutically acceptable salt thereof is applied to the preparation of medicines for reducing the expression content of colon interferon-gamma in inflammatory bowel diseases.
Preferably, the medicament is in the form of injection, capsule, tablet, granule, suspension, enema, emulsion or powder.
The invention has the beneficial effects that:
the invention establishes an acute Inflammatory Bowel Disease (IBD) mouse model by a Dextran Sodium Sulfate (DSS) chemical induction method, and explores whether a polypeptide fragment C (MP-C for short) has an improvement effect on the IBD mouse model by means of symptomatology, colon morphology, histopathology and immune factor expression analysis. The research result shows that under the same dosage with MIMP, the intervention of the polypeptide fragment C obviously improves the colon pathophysiology morphology of an IBD mouse model, reduces the disease activity index and the colon histopathology score of the IBD mouse model, and has the capability of improving and intervening the occurrence of the inflammatory bowel disease of the mouse. And compared with MIMP, the MP-C fragment has smaller molecular weight, is also beneficial to the pharmacy and the application of the MP-C fragment, and discloses the application potential of the polypeptide fragment C in the preparation of natural active products for preventing, intervening and treating inflammatory bowel diseases.
The abbreviations used in the present invention have the following specific meanings:
thr is threonine; his is histidine; val is valine; gly is glycine; ser is serine; phe is phenylalanine; asn is asparagine; tyr is tyrosine; ala is alanine; leu is leucine; glu is glutamic acid; met is methionine; pro is proline; asp is aspartic acid; arg is arginine; lys is lysine; gln is glutamine.
Drawings
FIG. 1 is a graph showing the body weight change trend of a model group mouse and a blank control group mouse, # P<0.05, ## P<0.01, ### P<0.001, comparing with a blank control group, and carrying out significance test on two independent samples by using a t test;
FIG. 2 is a comparison of disease activity index scores for mice in placebo, model, MIMP positive control and MP-C experimental groups (by the end of the experiment), * P<0.05, ** P<0.01, *** P<0.001, compared to model group; ### P<0.001, comparing with a blank control group, and carrying out significance test by single-factor analysis of variance;
FIG. 3 is a comparison graph of colon length of mice in blank control group, model group, MIMP positive control group and MP-C experimental group, * P<0.05, ** P<0.01, *** P<0.001, compared to model group; ## P<0.01, comparing with a blank control group, and carrying out significance test by single-factor variance analysis;
FIG. 4 is a histopathological micrograph of colon of mice in blank control group, model group, MIMP positive control group and MP-C experimental group (HE staining 20 Xmicroscopy; A. blank control group; B. model group; C. MIMP positive control group; D.MP-C experimental group);
andE. histopathological score comparison chart ( * P<0.05, ** P<0.01, *** P<0.001, compared to model set; # P<0.05, significance test with one-way anova compared to placebo);
FIG. 5 is a comparison graph of IFN-gamma expression content in colon of mice in blank control group, model group, MIMP positive control group and MP-C experimental group, * P<0.05, ** P<0.01, *** P<0.001, compared to model group; ### P<0.001, single-factor analysis of variance was tested for significance compared to the blank control group.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.
The reagents, materials and equipment used in the examples are shown in table 1:
TABLE 1
Example 1: experiment of intervention of MP-C on effect of DSS (direct sequence-derived leukemia) on induction of Inflammatory Bowel Disease (IBD) in mice
The sequence of the polypeptide fragment C (MP-C) used in this example is a sequence in which Xaa at the 9 th amino acid position of the amino acid sequence shown in SEQ ID No.1 is Val, Xaa at the 20 th amino acid position is Tyr, Xaa at the 30 th amino acid position is Ser, and Xaa at the 42 th amino acid position is Arg, that is, THTVGSYFVVQNGYVGAFSYALGNSEYAMSSPLGSLDGRTTRYNLL.
1. Experimental methods
1.1 establishment of mouse model of acute inflammatory bowel disease
When a certain concentration of DSS solution is given to mice, an acute inflammatory bowel disease model which is characterized by diarrhea, hematochezia, ulcer and granulocyte infiltration can be induced. Experimental grouping the randomization principle was followed, and stratified random grouping was performed according to the weight of the mice. 40 healthy male C57BL6 mice were divided into four groups of 10 mice each:
blank control group: the stomach is irrigated with water every day, and the volume of the irrigated stomach is 0.4mL/20 g;
model group: performing intragastric administration with 2.5 wt% DSS aqueous solution, and continuously drinking for 7 days, wherein the DSS aqueous solution is prepared fresh and is replaced for 1 time every 1 day;
MIMP positive control group: the mice are firstly given a pre-administration process of one week, namely, the mice are gazed with a MIMP solution with the mass fraction of 50 mu g/kg in the first 7 days, and are gazed with a 2.5 wt% DSS aqueous solution (the gazed volume is 0.4mL/20g) every day and are gazed with a MIMP solution with the mass fraction of 50 mu g/kg (the gazed volume is 0.4mL/20g) starting from the day 8;
MP-C experimental group: the mice are firstly administrated with a one-week pre-administration process, namely, the mice are gavaged with an MP-C solution with the mass fraction of 50 mug/kg on the first 7 days, and are gavaged with a 2.5 wt% DSS aqueous solution (the gavage volume is 0.4mL/20g) and an MP-C solution with the mass fraction of 50 mug/kg (the gavage volume is 0.4mL/20g) every day from the 8 th day;
changes in body weight were recorded daily for each group of mice to determine whether the acute inflammatory bowel disease mouse model was successfully established.
1.2 disease Activity index Scoring and sample Collection
After DSS induction, the weight change, the activity condition and the feces viscosity condition of each group of mice are recorded every day, meanwhile, a small amount of feces are picked, 10g/L o-tolidine glacial acetic acid solution and 3% hydrogen peroxide are sequentially dripped, the color development result is observed to judge the feces occult blood condition of the mice, Disease Activity Index (DAI) scoring is carried out after comprehensive evaluation, and the scoring standard is shown in Table 2. Mice were sacrificed by dislocation of cervical vertebrae, placed on an operating table, the abdominal cavity was exposed, and intestinal conditions were observed, with or without congestion, ulceration, and adhesion. Simultaneously, the colon of the mouse is completely taken out from the anus end to the ileocecal end, after the length of the colon is measured, the intestinal tract is cut open along the longitudinal axis, the feces of the intestinal tract are washed, and the intestinal tract is preserved in 4 percent of methanol polymer or frozen at the temperature of minus 80 ℃.
TABLE 2
Remarking: the DAI score is the arithmetic mean of the three scores of body weight, fecal character and fecal occult blood.
1.3 histopathological evaluation
Histopathological sectioning of the colon samples stored in 4% paraformaldehyde in step 1.2, hematoxylin-eosin staining, dehydration, sealing of sections and examination under an optical microscope, histopathological scoring by two blind examiners:
and (4) evaluation standard: 0 point, no obvious inflammation; 1 minute, moderate inflammation infiltration of the basal layer; 2 points, moderate hyperplasia of mucosa or severe inflammatory infiltration; 3 points, severe hyperplasia of mucosa, absence of goblet cells; score 4, no crypts present or ulcerations.
1.4 enzyme-linked immunosorbent assay (ELISA) assay
And (3) selecting the colon sample which is frozen and stored at the temperature of-80 ℃ in the step 1.2, adding PBS and magnetic beads into an EP tube, placing the colon sample into a tissue grinder for ultrasonic homogenization, and centrifuging to obtain a supernatant. The expression level of proinflammatory cytokine IFN-gamma (i.e. interferon-gamma) in colon samples is determined by using a commercial ELISA kit, appropriate primary antibody and secondary antibody are used according to the instruction, OPD color development liquid is used for color development, and after the reaction is stopped, an enzyme reader reads at 490nm wavelength, and each sample has three duplicate wells.
1.5 statistical analysis
Experimental data in the above experimental methods
It is shown that,the statistical tests were performed using GraphPad Prism (ver.8.0, GraphPad Software inc., San Diego, CA, USA), SPSS Program (ver.25.0, SPSS inc., Chicago, IL, USA), and the significance tests were performed using one-way anova or two independent sample t-tests when normality and homogeneity of variance were met. Let α equal to 0.05, P<A difference of 0.05 was statistically significant.
2. Analysis of Experimental results
2.1 intervention of MP-C significantly reduces the disease Activity index in mice with inflammatory bowel disease
Fig. 1 is a graph showing the trend of the body weight change between the model group mice and the blank control group mice, and it can be seen that the body weight of the model group mice significantly decreased after one week of induction by DSS administration (compared to the blank control group, ### P<0.001, there is a significant difference), indicating that the establishment of the mouse model of acute inflammatory bowel disease is successful. Under the condition of no drug intervention, the fecal condition of the mice in the model group is continuously worsened, and the MP-C experimental group and the MIMP positive control group can suppress the remarkable reduction of the weight of the mice, improve the fecal character and the occult blood condition of the mice and remarkably suppress the rise of DAI score of the mice through the intervention of MP-C and MIMP for one week, thereby improving the inflammatory bowel disease symptom of the DSS-induced mice, as shown in figure 2, the disease activity index is as follows:
blank control group 0.0 + -0.0; model group 3.7 ± 0.6; MIMP positive control 2.7 ± 0.7; MP-C group 2.0. + -. 0.3.
2.2 intervention of MP-C significantly ameliorated pathological Colon shortening in mice with inflammatory bowel disease
Fig. 3 is a graph showing the comparison of the colon length of mice in the placebo group, the model group, the MIMP positive control group and the MP-C experimental group, and it can be seen that the colon length (6.4 + -0.5) of the mice in the model group is significantly shortened (compared to the placebo group, ## P<0.01), whereas the shortening of the colon of the MP-C experimental group (colon length 9.2 ± 0.2) mice is significantly different compared to the shortening of the colon of the model group mice (compared to the model group, ** P<0.01, there are significant differences), which shows that the intervention of MP-C can significantly reverse the shortening, and the effect is equivalent to that of MIMP positive control group (colon length is 9.5 +/-0.3), which improves the pathology of mice with inflammatory bowel diseaseThe sexual colon morphology.
2.3 intervention of MP-C significantly reduced Colon histopathology scores in mice with inflammatory bowel disease
FIG. 4 is a histopathology micrograph of colon of mice in blank control group, model group, MIMP positive control group and MP-C experimental group (HE staining 20 Xmicroscopy; A. blank control group; B. model group; C. MIMP positive control group; D.MP-C experimental group); histopathological score comparison graph (A) * P<0.05, ** P<0.01, *** P<0.001, compared to model set; # P<0.001, single factor analysis of variance for significance test compared to blank control);
the pathological score was: blank control group 0.0 + -0.0; model group 5.6 ± 0.7; MIMP positive control 1.4 ± 0.7; MP-C panel 1.2. + -. 0.2.
It can be seen that both MIMP and MP-C intervention resulted in a significant reduction in colon histology scores in mice with inflammatory bowel disease. The pathological condition is improved to a corresponding degree, the epithelial structure of a mucous membrane layer is relatively complete, the morphological structure of epithelial cells is normal, and no obvious inflammation occurs, so that the intervention of MP-C can improve the large-area ulcer of the mucous membrane layer of colon tissues caused by DSS induction, reduce the infiltration of lymphocytes and neutrophils to a certain degree, and further intervene the occurrence of intestinal inflammation.
2.4 intervention of MP-C significantly downregulated the expression of inflammatory bowel disease mouse Colon Interferon-Gamma (IFN-. gamma.)
ELISA method for detecting colon cytokine expression, as shown in FIG. 5 for comparing IFN-gamma expression content in colon of mice in blank control group, model group, MIMP positive control group and MP-C experimental group ((C)) * P<0.05, ** P<0.01, *** P<0.001, compared to model group; ### P<0.001, significance test by one-way anova compared to blank control group), IFN- γ expression content of each group was: blank control 889.2 ± 74.6; model group 1223.1 ± 41.5; MIMP positive control 1011.4 ± 79.5; MP-C panel 1068.4. + -. 61.2.
The result shows that the interference of the MP-C can obviously inhibit the increase of the proinflammatory cytokine IFN-gamma of the mice with the inflammatory bowel disease induced by the DSS, and the result is consistent with the result of the MIMP positive control group, which indicates that the MP-C has the effect of improving the intestinal inflammation of the mice with the inflammatory bowel disease equivalent to the MIMP.
Example 2
The reagents, materials and equipment used in this example, as well as the experimental methods, were the same as in example 1, except that: the sequence of the polypeptide fragment C (MP-C) used in this example is a sequence of amino acid Xaa at position 9 of the amino acid sequence shown in SEQ ID No.1, wherein Xaa at position 20 is Tyr, Xaa at position 30 is Thr, and Xaa at position 42 is Gly, that is THTVGSYFYVQNGYVGAFSSALGNSEYAMTSPLGSLDGRTTGYNLL.
Example 3
The reagents, materials and equipment used in this example, as well as the experimental methods, were the same as in example 1, except that: the polypeptide fragment C (MP-C) used in this example has a sequence in which Xaa at position 9 of the amino acid sequence shown in SEQ ID No.1 is Gln, Xaa at position 20 is Glu, Xaa at position 30 is Pro, and Xaa at position 42 is Met, that is, THTVGSYFQVQNGYVGAFSEALGNSEYAMPSPLGSLDGRTTMYNLL.
Example 4
The reagents, materials and equipment used in this example, as well as the experimental methods, were the same as in example 1, except that: the sequence of the polypeptide fragment C (MP-C) used in this example is the amino acid sequence shown in SEQ ID No.1, wherein Xaa at position 9 is Gly, Xaa at position 20 is Gln, Xaa at position 30 is Leu, and Xaa at position 42 is absent, that is THTVGSYFGVQNGYVGAFSQALGNSEYAMLSPLGSLDGRTTYNLL.
After testing the experimental methods of example 2-example 4 according to example 1, the analysis results are not much different from those of example 1, which shows that the polypeptide fragment C of the present invention can significantly improve the colon pathological morphology of IBD mice, reduce the disease activity index and colon histopathological score of IBD mice.
The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Sequence listing
<110> Shanghai Long Xin biomedical science and technology Limited
<120> polypeptide fragment C and application thereof
<160> 2
<170> SIPOSequenceListing 1.0
<210> 3
<211> 46
<212> PRT
<213> Lactobacillus plantarum (Lactobacillus plantarum)
<400> 3
Thr His Thr Val Gly Ser Tyr Phe Xaa Val Gln Asn Gly Tyr Val Gly
1 5 10 15
Ala Phe Ser Xaa Ala Leu Gly Asn Ser Glu Tyr Ala Met Xaa Ser Pro
20 25 30
Leu Gly Ser Leu Asp Gly Arg Thr Thr Xaa Tyr Asn Leu Leu
35 40 45
<210> 2
<211> 61
<212> PRT
<213> Lactobacillus plantarum (Lactobacillus plantarum)
<400> 2
Thr His Thr Val Gly Ser Tyr Phe Ser Val Gln Asn Gly Tyr Val Gly
1 5 10 15
Ala Phe Ser Gln Ala Leu Gly Asn Ser Glu Tyr Ala Met Asn Ser Pro
20 25 30
Leu Gly Ser Leu Asp Gly Arg Thr Thr Met Tyr Asn Leu Leu Gly Val
35 40 45
Lys Tyr Leu Phe Ala Arg Glu Asp Gln Leu Lys Lys Gln
50 55 60
Claims (7)
1. A polypeptide having the amino acid sequence THTVGSYFVVQNGYVGAFSYALGNSEYAMSSPLGSLDGRTTRYNLL;
or THTVGSYFYVQNGYVGAFSSALGNSEYAMTSPLGSLDGRTTGYNLL;
or THTVGSYFQVQNGYVGAFSEALGNSEYAMPSPLGSLDGRTTMYNLL;
or THTVGSYFGVQNGYVGAFSQALGNSEYAMLSPLGSLDGRTTYNLL.
2. Use of the polypeptide of claim 1 or a pharmaceutically acceptable salt thereof in the manufacture of a medicament for the treatment of an inflammatory bowel disease.
3. Use according to claim 2, for the preparation of a medicament for reducing the disease activity index of inflammatory bowel disease.
4. Use according to claim 2, for the preparation of a medicament for ameliorating the pathological colon shortening of inflammatory bowel disease.
5. Use according to claim 2, in the preparation of a medicament for reducing the colon histopathological score of inflammatory bowel disease.
6. Use according to claim 2, in the manufacture of a medicament for down-regulating the level of colonic interferon-gamma expression in inflammatory bowel disease.
7. The use according to claim 2, wherein the medicament is in the form of an injection, capsule, tablet, granule, suspension, enema, emulsion or powder.
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- 2021-02-02 CN CN202110145633.1A patent/CN112812158B/en active Active
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- 2022-03-15 WO PCT/CN2022/080881 patent/WO2022167000A1/en active Application Filing
- 2022-05-05 US US17/737,062 patent/US20220402973A1/en active Pending
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| CN112812158A (en) | 2021-05-18 |
| US20220402973A1 (en) | 2022-12-22 |
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